DE60211017T2 - BRANCHING SYSTEM OF A FIBER OPTIC CABLE DEVICE AND METHOD OF MANUFACTURING THEREOF - Google Patents

Description

Field of the invention

The The present invention relates generally to the field of fiber optic Arrangements and more particularly a branching system or a branching device for one Plurality of optical fibers of a fiber optic cable as well a method of manufacturing the device.

Background of the invention

Fiberoptic Connectors of a wide variety of designs are used, to complete fiber optic cables and to connect the Cable with other cables or other fiber optic transmission equipment to enable. A typical fiber optic connector comprises a ferrule by means of which is an optical fiber or optical fibers in the connector be mounted and centered. The ferrule can be made of such material how to be made of ceramics. An optical multi-fiber cable can be completed in a single connector, or the multiple individual optical fibers of the cable can in a plurality of Connectors are terminated, making a fiber optic connector harness is formed. A common type of fiber optic cable is a multi-fiber flat cable, that conventionally is referred to as a fiber optic ribbon or ribbon cable.

One the problems of completing consists of the individual optical fibers of a fiber optic cable in that the fibers in the cable are in a generally parallel, closely spaced arrangement are held side by side. It is very difficult, these thin Fibers to manipulate and the fibers to complete in one or several fiber optic connectors properly. This especially applies to a fiber optic ribbon cable. As a result, "branch" connectors or other devices become used in the optical multi-fiber cables, in particular ribbon cables.

One Branching connector or a branching device comprises a branching agent, for example a branching insert, for receiving and spreading the individual fibers of the cable across to this, making the fibers easier according to the hardware interface requirements can be connected. The individual fibers extend from the branching insert and in turn are at a considerable distance from each other arranged relative to their closely spaced positional relationship in the cable. A variety of easy-to-manipulate tubes can placed around the individual fibers to feed the fibers protect. The tubes can be color coded to organize and properly connect the To facilitate fibers.

When For example, EP-A-0768550 describes a branching device, which is characterized in that a first plate, the coated on its one side with an adhesive substance, and one second plate, on one side with an adhesive substance is coated, between their adhesive sides a plurality of exposed and separate fibers of a multi-fiber cable, of which a serving part has been removed, the outer ends of these fibers in protective tubes are encapsulated.

The The present invention is directed to various improvements at branching devices for Such fiber optic cables, especially for use with a fiber optic tape, available to deliver. By the invention, the earlier use of separate Faseraufspreizmechanismen or inserts completely redundant.

Summary of the invention

A The object of the invention is therefore to provide a new and improved Branching system for to provide a fiber optic cable having a Comprises a plurality of optical fibers.

A Another object of the invention is to provide a unique fiber optic Branching device available to make, which consists of a fiber optic ribbon cable itself.

A Another object of the invention is to provide a new and improved Method for producing a fiber optic branching device to disposal to deliver.

In the exemplary embodiment The invention is a branching system for a fiber optic cable to disposal provided comprising a plurality of optical fibers. The system includes a fiber optic ribbon having a plurality of individual ones optical fibers lying on a flat substrate in a general parallel side by side adhesion. The fibers are at one Edge of the substrate spread apart in a branching arrangement. The loose ends of the fibers extend beyond the edge of the substrate, for manipulation and connection purposes. Therefore, the fiber optic cable forms itself a branching device, which external branching mechanisms, Calls or the like makes superfluous.

According to one aspect of the invention, the branching system may also include a Comprise a plurality of tubular elements which individually enclose the loose ends of the fibers beyond the edge of the substrate. A protective transition element in the form of a shallow sleeve generally encloses the loose ends of the fibers, at least in a region extending from the edge of the substrate to the proximal ends of the tube elements.

at the preferred embodiment is a fastener, such as an adhesive, to rigid Attach the near ends of the tube elements in the protective transition element intended. A window is provided in the transition element, to paste of the adhesive in the interior of the transition element through this therethrough. The substrate and the fibers adhering to it are slidable in the protective transition element arranged. Slings are provided in the transition element, to create the near ends of the tube elements at these to define correct relative positions of the tube elements. The transition element is preferably transparent, so that the introduction of the adhesive as well as the positions of the tube elements from outside of the transition element you can see. After all a plurality of individual fiber optic connectors to the loose ends of the plurality of individual optical fibers at the distal ends the tube elements connected to a fiber optic connector harness to build.

Corresponding Another aspect of the invention is a method of manufacture the branching device proposed. The method comprises the manufacture of fiber optic tape with its integrated Branching system. The procedure may include mounting the tube elements also of the protective transition element include. The process can also completing The loose fibers on a plurality of connectors comprise a form fiber optic connector harness.

Other Objects, features and advantages of the invention will be apparent from the following detailed description that in conjunction with the accompanying drawings.

Short description the drawings

The Features of the present invention which are considered novel are detailed in the appended claims. The Invention, together with its objects and advantages best to be understood with reference to the following description, which in conjunction with the attached Draw in which like reference numerals are the same Denote elements in the figures and wherein:

1 is a plan view of a fiber optic ribbon cable incorporating the unique branching device according to the invention;

2 a plan view of the ribbon cable 1 in conjunction with one of the tubular elements and the protective transition element of a branching system;

3 is a top view of the protective transition element from above;

4 an end view of the transition element from the left end of 3 out of view;

5 an end view of the transition element from the right end of 3 out of view;

6 one generally along the line 6-6 3 taken cut;

7 a plan view of the system 2 in fully assembled condition;

8th one along the line 8-8 off 7 taken cut; and

9 a plan view similar to the 7 on a reduced scale showing a plurality of fiber optic connectors connected to the individual fibers of the ribbon cable.

Detailed description the preferred embodiment

To take If we refer in more detail to the drawings, so will be present According to the invention a unique Branching device proposed which directly into a fiber optic Ribbon cable or "tape" is built in, like also a new and improved branching system, which is the includes fiber optic tape, as well as a method of manufacture of the system or device. In other words, there is for the unique Fiber optic ribbon according to the invention other applications than in the presently specifically indicated system.

Provided this shows 1 a fiber optic ribbon cable or "band" commonly used with 10 is designated, which at its one end a flat substrate 12 with a peripheral edge 12a includes. The substrate is flexible and is provided with an adhesive layer on one of its sides to form a plurality of individual optical fibers thereon 14 in stick a side by side in a generally parallel, very closely spaced arrangement. Typically, a conformal coating is applied over the fibers and substrate after the fibers have been layered and adhered to the substrate. The fibers are in one at 16 specified branching area, generally at the edge 12a of the substrate, spread apart to a branched arrangement. The loose ends 18 the fibers extend over the edge 12a of the substrate, as in 1 you can see. Finally, in the substrate 12 a slot 20 formed and extends over a given distance from the edge 12a inside, into the branching area 16 into, for purposes that will be described later. Although in the band 10 any number of individual optical fibers 14 and fiber ends 18 can be used, the illustrated embodiment shows ten fibers and fiber ends on each opposite side of the slot 20 ,

2 shows a general with 22 designated protective transition element, which is above the branching area 16 ( 1 ) of the fiber optic ribbon 10 is arranged. In 2 is also a flexible tube element 24 shown over the loose end 18 one of the individual optical fibers 14 is arranged. As will be seen later, is over every loose end 18 every optical fiber extending over the edge 12a of the substrate 12 extends beyond the fiber optic ribbon, a single tube element 24 arranged.

Before we go on, be on the 3 - 6 Reference is made to the details of the protective transition element 22 demonstrate. As can be seen, the transition element is a generally flat, hollow sleeve which passes through an upper wall 26 , a lower wall 28 and a pair of sidewalls 30 is defined, which connect the upper and the lower wall, so that in 4 generally designated 32, flat inner cavity is formed around the branch region 16 ( 1 ) of the fiber optic ribbon 10 take. The transition element is preferably made of transparent plastic material to allow insight into the interior thereof. How best in 6 is visible, is the inner cavity 32 ( 4 ) generally in a front inner chamber section 32a and a rear inner chamber portion 32b divided. How best in 5 You can see it on the inside of the upper wall 26 a plurality of gutters 26a are formed and are with a plurality of gutters 28a on the inside of the lower wall 28 aligned. These grooves in combination provide guide means for inserting a plurality of tubes 24 available in these. How best in 4 can be seen, the rear inner chamber section 32b a flat surface 28b the lower wall 28 on to the branching area 16 of the fiber optic ribbon 10 to lead into it. How best in 6 is a stop shoulder means 34 between the front inner chamber section 32a and the rear inner chamber portion 32b defined, facing the front inner chamber portion. An attack 36 extends in the inner cavity 32 between opposite ends of the front inner chamber portion 32a , for purposes that will be described later. Finally, a window stretches 38 in the upper wall 26 over the entire width of the transition element 22 how best in 3 you can see.

With the above description of the protective transition element 22 in the 3 - 6 will be up again 2 Reference is made to describe the initial steps in making the branching system of the present invention. In particular, the loose fibers 18 and the branching area 16 ( 1 ) of the fiber optic ribbon 10 in the rear interior chamber section 32b of the transition element 22 inserted and are pulled forward in the direction of the arrow "A" until the stop 36 ( 4 - 6 ) of the transition element 22 at the bottom of the slot provided in the fiber optic ribbon 20 comes into contact. It can be seen that the edge 12a of the substrate 12 the band has been pulled forward beyond the transition element. Although in 2 only one tube 24 is shown, a plurality of tube elements 24 individually on the loose ends 18 the fibers 14 arranged to enclose the loose ends of the fibers. The fibers can be fixed with adhesive in the tube elements. It can be seen that the tube elements still have the sections 40 leave the fibers uncovered.

7 shows that the branching area 16 of the fiber optic ribbon 10 in the protective transition element 22 pushed back in the direction of the arrow "B", while the tube elements 24 have been pushed into the front inner chamber portion of the transition element, until the abutment of the proximal ends of the tube elements to the stop shoulder means 34 inside the transition element. The next step in the manufacturing process of the invention is to place the near ends of the tube elements 24 rigid in the protective transition element 22 to fix. Continue on 7 Referring to, a liquid adhesive is through the window 38 of the transition element 22 through into contact with the tube elements 24 and inserted around it in the transition element. When cured, the adhesive forms a fastener for rigidly securing the proximal ends of the tube ends elements in the protective transition element. It should be noted, however, that the branching area 16 of the fiber optic ribbon 10 along with the free sections 40 the loose ends 18 the optical fibers remain displaceable in the transition element. This allows relative movement between the fibers and the tube elements to compensate for different rates of thermal expansion between the tubes and the individual optical fibers. For example, the tubes may be made of plastic material which thermally expands more than the glass fibers. This relative movement between the fibers and the tubes can occur in very hot environments.

Finally shows 9 a plurality of individual fiber optic connectors, generally designated 50, which terminate at the loose ends of the individual optical fibers at the distal ends of the tubular members 24 are connected and attached to these. Details of the individual fiber optic connectors are not described herein because the connectors can take on a wide variety of designs or configurations. Suffice to say that the combination of the fiber optic connectors and the branching system of the invention provides a unique fiber optic connector harness.

you will understand that the invention in other special forms personified can be without deviating from the scope of protection, as he in the pending claims is defined. The present examples and embodiments are therefore, in all respects, as illustrative and not as restrictive to consider and the invention is not limited to the present Details limited.

Claims (26)

Fiber optic branching device ( 10 . 16 ), comprising: a flat substrate ( 12 ) with a peripheral edge ( 12a ); and a plurality of individual optical fibers ( 14 ) arranged side by side in a generally parallel arrangement on the substrate ( 12 ), wherein the fibers at the edge of the substrate in a branching arrangement ( 16 ) are spread apart, with loose ends ( 18 ) of the fibers over the edge ( 12a extend) of the substrate, wherein a plurality of tube elements ( 24 ) individually the loose ends ( 18 ) of the fibers ( 14 ), and characterized in that the tube elements ( 24 ) Sections ( 40 ) of the loose ends ( 18 ) of the fibers ( 14 ) uncovered and one or more uncovered sections ( 40 ) of the loose ends ( 18 ) of the fibers ( 14 ) within a protective transition element ( 22 ) remain easy to move. A fiber optic branching device according to claim 1, comprising a plurality of individual fiber optic connectors ( 50 ), which at the loose ends ( 18 ) of the plurality of individual optical fibers ( 14 ) are connected. A fiber optic branching device according to claim 1 or 2, comprising a fiber optic cable comprising the plurality of optical fibers ( 14 ). A fiber optic branching device according to any one of the preceding claims comprising a fiber optic ribbon cable comprising the plurality of optical fibers ( 14 ). Fiber optic branching device according to one of the preceding claims, wherein the protective transition element ( 22 ) the loose ends ( 18 ) of the fibers ( 14 ), at least in a region extending from the edge of the substrate ( 12 ) to the near ends of the tube elements ( 24 ) extends. A fiber optic branching device as claimed in any one of the preceding claims, including attachment means for rigidly securing the proximal ends of the tubular members ( 24 ) in the protective transition element ( 22 ). A fiber optic branching device according to claim 6, wherein the attachment means comprises an adhesive which seals the proximal ends of the tube elements ( 24 ) rigidly in the protective transition element ( 22 ) holds. Fiber optic branching device according to one of the preceding claims, wherein the protective transition element ( 22 ) a window ( 38 ) for inserting the adhesive into the interior of the protective transition element ( 22 ) through it. Fiber optic branching device according to one of the preceding claims, wherein the protective transition element ( 22 ) is transparent. Fiber optic branching device according to one of the preceding claims, wherein the substrate ( 12 ) and the fibers ( 14 ) displaceable in the protective transition element ( 22 ) are arranged. Fiber optic branching device according to one of the preceding claims, which stop means ( 34 ) in the protective transition element ( 22 ) to the plant of the near ends of the Röh renelements ( 24 ) to the correct positions of the tubular elements in the protective transition element ( 22 ) define. Fiber optic branching device according to one of the preceding claims, wherein the protective transition element ( 22 ) a flat sleeve ( 22 ) comprising the loose ends ( 18 ) encloses the fibers in a band arrangement. A fiber optic branching device according to any one of claims 1 to 4, wherein the protective transition element ( 22 ) in the form of a flat sleeve ( 22 ) the loose ends ( 18 ) of the fibers ( 14 ) in a band arrangement extending from the edge of the substrate ( 12 ) to the near ends of the tube elements ( 24 ). A fiber optic branching device according to claim 13, wherein fasteners form the proximal ends of the tubular elements ( 24 ) rigidly in the protective transition element ( 22 ) hold tight. A fiber optic branching device according to any one of claims 13 or 14, wherein the substrate ( 12 ) and the fibers ( 14 ) displaceable in the protective transition element ( 22 ) are arranged. A fiber optic branching device according to claim 14 or 15, wherein the attachment means comprises an adhesive which seals the proximal ends of the tube elements ( 24 ) rigid in the sleeve ( 22 ) holds. A fiber optic branching device according to any one of claims 13 to 16, wherein the sleeve ( 22 ) a window ( 38 ), for the insertion of the adhesive into the interior of the sleeve ( 22 ) through it. A fiber optic branching device according to any one of claims 13 to 17, wherein the sleeve ( 22 ) is transparent. Fiber optic branching device according to one of claims 13 to 18, which stop means ( 34 ) in the sleeve ( 22 ) for abutment of the near ends of the tube elements ( 24 ) at these to the correct positions of the tube elements in the sleeve ( 22 ) define. A fiber optic branching device according to any one of the preceding claims comprising a plurality of individual fiber optic connectors ( 50 ) at distal ends of the tube elements ( 24 ) at the loose ends ( 18 ) of the plurality of individual optical fibers ( 14 ) are connected. Method for producing a branching device for a fiber optic cable ( 10 ) comprising a plurality of optical fibers ( 14 ), comprising: providing a fiber optic ribbon cable ( 18 ) having a plurality of individual optical fibers ( 14 ) arranged side by side in a generally parallel arrangement on a flat substrate ( 12 ), with the fibers at one edge ( 12a ) of the substrate in a branching arrangement ( 16 ) are spread apart, with the loose ends ( 18 ) of the fibers extend beyond the edge of the substrate; characterized by arranging a plurality of tubular elements ( 24 ) individually around the loose ends ( 18 ) of the fibers ( 14 ), wherein the ends of the tube elements ( 24 ) beyond the edge ( 12a ) of the substrate ( 12 ), wherein the tube elements ( 24 ) Sections ( 40 ) of the loose ends ( 18 ) of the fibers ( 14 ), leaving one or more uncovered sections ( 40 ) of the loose ends ( 18 ) of the fibers ( 14 ) within a protective transition element ( 22 ) remain easily displaceable, and attaching the protective transition element ( 22 ) around the loose ends ( 18 ) of the fibers ( 14 ) all around, at least in a region extending from the edge of the substrate ( 12 ) to the near ends of the tube elements ( 24 ) extends. The method of claim 21 including the step of placing the proximal ends of the tubular elements ( 24 ) in the protective transition element ( 22 ) rigidly fasten. The method of claim 22, wherein the near ends of the tubular elements ( 24 ) using an adhesive rigidly in the protective transition element ( 22 ) are attached. Method according to one of the preceding claims, which comprises providing the protective transition element ( 22 ) with a window ( 38 ) for inserting the adhesive into the interior of the protective transition element ( 22 ) through it. Method according to one of the preceding claims, in which the protective transition element ( 22 ) around the loose ends ( 18 ) of the fibers ( 14 ) is placed around the protective transition element ( 22 ) is displaceable with respect to the fibers. Method according to one of the preceding claims, comprising the step of a plurality of individual fiber optic connectors ( 50 ) at the loose ends ( 18 ) of the plurality of individual optical fibers ( 14 ) at far ends of the Tubular elements ( 24 ).